# !/usr/bin/env python
# -*- coding:utf-8 -*-
# @Time : 2021/4/19 12:40
# @Author : 冰海
# @File : invRegex.py
__all__ = ["count", "invert", "all_str"]

from lib.log import logger

from pyparsing import (
    Literal,
    oneOf,
    printables,
    ParserElement,
    Combine,
    SkipTo,
    infixNotation,
    ParseFatalException,
    Word,
    nums,
    opAssoc,
    Suppress,
    ParseResults,
    srange,
)

ParserElement.enablePackrat()


class CharacterRangeEmitter:
    def __init__(self, chars):
        # remove duplicate chars in character range, but preserve original order
        seen = set()
        self.charset = "".join(seen.add(c) or c for c in chars if c not in seen)

    def __str__(self):
        return "[" + self.charset + "]"

    def __repr__(self):
        return "[" + self.charset + "]"

    def makeGenerator(self):
        def genChars():
            yield from self.charset

        return genChars


class OptionalEmitter:
    def __init__(self, expr):
        self.expr = expr

    def makeGenerator(self):
        def optionalGen():
            yield ""
            yield from self.expr.makeGenerator()()

        return optionalGen


class DotEmitter:
    def makeGenerator(self):
        def dotGen():
            yield from printables

        return dotGen


class GroupEmitter:
    def __init__(self, exprs):
        self.exprs = ParseResults(exprs)

    def makeGenerator(self):
        def groupGen():
            def recurseList(elist):
                if len(elist) == 1:
                    yield from elist[0].makeGenerator()()
                else:
                    for s in elist[0].makeGenerator()():
                        for s2 in recurseList(elist[1:]):
                            yield s + s2

            if self.exprs:
                yield from recurseList(self.exprs)

        return groupGen


class AlternativeEmitter:
    def __init__(self, exprs):
        self.exprs = exprs

    def makeGenerator(self):
        def altGen():
            for e in self.exprs:
                yield from e.makeGenerator()()

        return altGen


class LiteralEmitter:
    def __init__(self, lit):
        self.lit = lit

    def __str__(self):
        return "Lit:" + self.lit

    def __repr__(self):
        return "Lit:" + self.lit

    def makeGenerator(self):
        def litGen():
            yield self.lit

        return litGen


def handleRange(toks):
    return CharacterRangeEmitter(srange(toks[0]))


def handleRepetition(toks):
    toks = toks[0]
    if toks[1] in "*+":
        logger.error(f"请勿使用*和+位数不定的正则，使用的话默认按?匹配")
        return OptionalEmitter(toks[0])
        # raise ParseFatalException("", 0, "unbounded repetition operators not supported")
    if toks[1] == "?":
        return OptionalEmitter(toks[0])
    if "count" in toks:
        return GroupEmitter([toks[0]] * int(toks.count))
    if "minCount" in toks:
        mincount = int(toks.minCount)
        maxcount = int(toks.maxCount)
        optcount = maxcount - mincount
        if optcount:
            opt = OptionalEmitter(toks[0])
            for i in range(1, optcount):
                opt = OptionalEmitter(GroupEmitter([toks[0], opt]))
            return GroupEmitter([toks[0]] * mincount + [opt])
        else:
            return [toks[0]] * mincount


def handleLiteral(toks):
    lit = ""
    for t in toks:
        if t[0] == "\\":
            if t[1] == "t":
                lit += "\t"
            else:
                lit += t[1]
        else:
            lit += t
    return LiteralEmitter(lit)


def handleMacro(toks):
    macroChar = toks[0][1]
    if macroChar == "d":
        return CharacterRangeEmitter("0123456789")
    elif macroChar == "w":
        return CharacterRangeEmitter(srange("[A-Za-z0-9_]"))
    elif macroChar == "s":
        return LiteralEmitter(" ")
    else:
        raise ParseFatalException(
            "", 0, "unsupported macro character (" + macroChar + ")"
        )


def handleSequence(toks):
    return GroupEmitter(toks[0])


def handleDot():
    return CharacterRangeEmitter(printables)


def handleAlternative(toks):
    return AlternativeEmitter(toks[0])


_parser = None


def parser():
    global _parser
    if _parser is None:
        ParserElement.setDefaultWhitespaceChars("")
        lbrack, rbrack, lbrace, rbrace, lparen, rparen, colon, qmark = map(
            Literal, "[]{}():?"
        )

        reMacro = Combine("\\" + oneOf(list("dws")))
        escapedChar = ~reMacro + Combine("\\" + oneOf(list(printables)))
        reLiteralChar = (
            "".join(c for c in printables if c not in r"\[]{}().*?+|") + " \t"
        )

        reRange = Combine(lbrack + SkipTo(rbrack, ignore=escapedChar) + rbrack)
        reLiteral = escapedChar | oneOf(list(reLiteralChar))
        reNonCaptureGroup = Suppress("?:")
        reDot = Literal(".")
        repetition = (
            (lbrace + Word(nums)("count") + rbrace)
            | (lbrace + Word(nums)("minCount") + "," + Word(nums)("maxCount") + rbrace)
            | oneOf(list("*+?"))
        )

        reRange.setParseAction(handleRange)
        reLiteral.setParseAction(handleLiteral)
        reMacro.setParseAction(handleMacro)
        reDot.setParseAction(handleDot)

        reTerm = reLiteral | reRange | reMacro | reDot | reNonCaptureGroup
        reExpr = infixNotation(
            reTerm,
            [
                (repetition, 1, opAssoc.LEFT, handleRepetition),
                (None, 2, opAssoc.LEFT, handleSequence),
                (Suppress("|"), 2, opAssoc.LEFT, handleAlternative),
            ],
        )
        _parser = reExpr

    return _parser


def count(gen):
    """Simple function to count the number of elements returned by a generator."""
    return sum(1 for _ in gen)


def invert(regex):
    r"""Call this routine as a generator to return all the strings that
       match the input regular expression.
           for s in invert(r"[A-Z]{3}\d{3}"):
               print s
    """
    invReGenerator = GroupEmitter(parser().parseString(regex)).makeGenerator()
    return invReGenerator()


def all_str(regex):
    return list(invert(regex))


def main():
    tests = r"""
    [A-EA]
    [A-D]*
    [A-D]{3}
    X[A-C]{3}Y
    X[A-C]{3}\(
    X\d
    foobar\d\d
    foobar{2}
    foobar{2,9}
    fooba[rz]{2}
    (foobar){2}
    ([01]\d)|(2[0-5])
    (?:[01]\d)|(2[0-5])
    ([01]\d\d)|(2[0-4]\d)|(25[0-5])
    [A-C]{1,2}
    [A-C]{0,3}
    [A-C]\s[A-C]\s[A-C]
    [A-C]\s?[A-C][A-C]
    [A-C]\s([A-C][A-C])
    [A-C]\s([A-C][A-C])?
    [A-C]{2}\d{2}
    @|TH[12]
    @(@|TH[12])?
    @(@|TH[12]|AL[12]|SP[123]|TB(1[0-9]?|20?|[3-9]))?
    @(@|TH[12]|AL[12]|SP[123]|TB(1[0-9]?|20?|[3-9])|OH(1[0-9]?|2[0-9]?|30?|[4-9]))?
    (([ECMP]|HA|AK)[SD]|HS)T
    [A-CV]{2}
    A[cglmrstu]|B[aehikr]?|C[adeflmorsu]?|D[bsy]|E[rsu]|F[emr]?|G[ade]|H[efgos]?|I[nr]?|Kr?|L[airu]|M[dgnot]|N[abdeiop]?|Os?|P[abdmortu]?|R[abefghnu]|S[bcegimnr]?|T[abcehilm]|Uu[bhopqst]|U|V|W|Xe|Yb?|Z[nr]
    (a|b)|(x|y)
    (a|b) (x|y)
    [ABCDEFG](?:#|##|b|bb)?(?:maj|min|m|sus|aug|dim)?[0-9]?(?:/[ABCDEFG](?:#|##|b|bb)?)?
    (Fri|Mon|S(atur|un)|T(hur|ue)s|Wednes)day
    A(pril|ugust)|((Dec|Nov|Sept)em|Octo)ber|(Febr|Jan)uary|Ju(ly|ne)|Ma(rch|y)
    """.splitlines()

    for t in tests:
        t = t.strip()
        if not t:
            continue
        print("-" * 50)
        print(t)
        try:
            num = count(invert(t))
            print(num)
            maxprint = 30
            for s in invert(t):
                print(s)
                maxprint -= 1
                if not maxprint:
                    break
        except ParseFatalException as pfe:
            print(pfe.msg)
            print("")
            continue
        print("")


if __name__ == "__main__":
    main()